/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include // Below are the header files we want to test. #include #include #include #include #include #include #include #include #include #include #include #include #if defined(__BIONIC__) #include #include #endif // Generated android_ids array #include "generated_android_ids.h" using android::base::Join; using android::base::ReadFileToString; using android::base::Split; using android::base::StartsWith; using namespace std::literals; enum uid_type_t { TYPE_APP, TYPE_SYSTEM, TYPE_VENDOR, }; #if defined(__BIONIC__) static void check_passwd(const passwd* pwd, const char* username, uid_t uid, uid_type_t uid_type, bool check_username) { ASSERT_TRUE(pwd != nullptr); if (check_username) { EXPECT_STREQ(username, pwd->pw_name); } EXPECT_EQ(uid, pwd->pw_uid); EXPECT_EQ(uid, pwd->pw_gid); EXPECT_EQ(nullptr, pwd->pw_passwd); #ifdef __LP64__ EXPECT_EQ(nullptr, pwd->pw_gecos); #endif if (uid_type == TYPE_APP) { EXPECT_STREQ("/data", pwd->pw_dir); } else { EXPECT_STREQ("/", pwd->pw_dir); } // This has changed over time and that causes new GSI + old vendor images testing to fail. // This parameter doesn't matter on Android, so simply ignore its value for older vendor images. if (android::base::GetIntProperty("ro.product.first_api_level", 0) >= 30) { EXPECT_STREQ("/bin/sh", pwd->pw_shell); } } static void check_getpwuid(const char* username, uid_t uid, uid_type_t uid_type, bool check_username) { errno = 0; passwd* pwd = getpwuid(uid); ASSERT_EQ(0, errno); SCOPED_TRACE("getpwuid"); check_passwd(pwd, username, uid, uid_type, check_username); } static void check_getpwnam(const char* username, uid_t uid, uid_type_t uid_type, bool check_username) { errno = 0; passwd* pwd = getpwnam(username); ASSERT_EQ(0, errno); SCOPED_TRACE("getpwnam"); check_passwd(pwd, username, uid, uid_type, check_username); } static void check_getpwuid_r(const char* username, uid_t uid, uid_type_t uid_type, bool check_username) { passwd pwd_storage; char buf[512]; int result; errno = 0; passwd* pwd = nullptr; result = getpwuid_r(uid, &pwd_storage, buf, sizeof(buf), &pwd); ASSERT_EQ(0, result); ASSERT_EQ(0, errno); SCOPED_TRACE("getpwuid_r"); check_passwd(pwd, username, uid, uid_type, check_username); } static void check_getpwnam_r(const char* username, uid_t uid, uid_type_t uid_type, bool check_username) { passwd pwd_storage; char buf[512]; int result; errno = 0; passwd* pwd = nullptr; result = getpwnam_r(username, &pwd_storage, buf, sizeof(buf), &pwd); ASSERT_EQ(0, result); ASSERT_EQ(0, errno); SCOPED_TRACE("getpwnam_r"); check_passwd(pwd, username, uid, uid_type, check_username); } static void check_get_passwd(const char* username, uid_t uid, uid_type_t uid_type, bool check_username = true) { SCOPED_TRACE("username '"s + username + "'"); check_getpwuid(username, uid, uid_type, check_username); check_getpwnam(username, uid, uid_type, check_username); check_getpwuid_r(username, uid, uid_type, check_username); check_getpwnam_r(username, uid, uid_type, check_username); } static void expect_no_passwd_id(uid_t uid) { SCOPED_TRACE("uid '" + std::to_string(uid) + "'"); errno = 0; passwd* passwd = nullptr; passwd = getpwuid(uid); EXPECT_EQ(nullptr, passwd) << "name = '" << passwd->pw_name << "'"; EXPECT_EQ(ENOENT, errno); struct passwd passwd_storage; char buf[512]; EXPECT_EQ(ENOENT, getpwuid_r(uid, &passwd_storage, buf, sizeof(buf), &passwd)); EXPECT_EQ(nullptr, passwd) << "name = '" << passwd->pw_name << "'"; } static void expect_no_passwd_name(const char* username) { SCOPED_TRACE("username '"s + username + "'"); errno = 0; passwd* passwd = nullptr; passwd = getpwnam(username); EXPECT_EQ(nullptr, passwd) << "name = '" << passwd->pw_name << "'"; EXPECT_EQ(ENOENT, errno); struct passwd passwd_storage; char buf[512]; EXPECT_EQ(ENOENT, getpwnam_r(username, &passwd_storage, buf, sizeof(buf), &passwd)); EXPECT_EQ(nullptr, passwd) << "name = '" << passwd->pw_name << "'"; } #else // !defined(__BIONIC__) static void check_get_passwd(const char* /* username */, uid_t /* uid */, uid_type_t /* uid_type */, bool /* check_username */) { GTEST_SKIP() << "bionic-only test"; } static void check_get_passwd(const char* /* username */, uid_t /* uid */, uid_type_t /* uid_type */) { GTEST_SKIP() << "bionic-only test"; } static void expect_no_passwd_id(uid_t /* uid */) { GTEST_SKIP() << "bionic-only test"; } static void expect_no_passwd_name(const char* /* username */) { GTEST_SKIP() << "bionic-only test"; } #endif TEST(pwd, getpwnam_platform_ids) { check_get_passwd("root", 0, TYPE_SYSTEM); check_get_passwd("daemon", 1, TYPE_SYSTEM); check_get_passwd("bin", 2, TYPE_SYSTEM); check_get_passwd("system", 1000, TYPE_SYSTEM); check_get_passwd("radio", 1001, TYPE_SYSTEM); check_get_passwd("shell", 2000, TYPE_SYSTEM); check_get_passwd("nobody", 9999, TYPE_SYSTEM); } TEST(pwd, getpwnam_oem_ids) { check_get_passwd("oem_2900", 2900, TYPE_VENDOR, false); check_get_passwd("oem_2945", 2945, TYPE_VENDOR, false); check_get_passwd("oem_2999", 2999, TYPE_VENDOR, false); check_get_passwd("oem_5000", 5000, TYPE_VENDOR, false); check_get_passwd("oem_5454", 5454, TYPE_VENDOR, false); check_get_passwd("oem_5999", 5999, TYPE_VENDOR, false); } TEST(pwd, getpwnam_non_exist) { expect_no_passwd_id(999); // End of the system reserved range, unallocated. expect_no_passwd_id(1999); // End of the system reserved range, unallocated. expect_no_passwd_id(2899); // End of the system reserved range, unallocated. // These ranges are for GIDs only. expect_no_passwd_id(20000); expect_no_passwd_id(30000); expect_no_passwd_id(40000); expect_no_passwd_id(50000); // These should not be parsed as users, only as groups. expect_no_passwd_name("u0_a9999_cache"); expect_no_passwd_name("u0_a9999_ext"); expect_no_passwd_name("u0_a9999_ext_cache"); expect_no_passwd_name("all_a9999"); } TEST(pwd, getpwnam_u0_app_ids) { check_get_passwd("u0_a0", 10000, TYPE_APP); check_get_passwd("u0_a1234", 11234, TYPE_APP); check_get_passwd("u0_a9999", 19999, TYPE_APP); check_get_passwd("u0_i1", 90001, TYPE_APP); check_get_passwd("u0_i4545", 94545, TYPE_APP); check_get_passwd("u0_i9999", 99999, TYPE_APP); } TEST(pwd, getpwnam_app_id_u1_ids) { check_get_passwd("u1_system", 101000, TYPE_SYSTEM); check_get_passwd("u1_radio", 101001, TYPE_SYSTEM); check_get_passwd("u1_a0", 110000, TYPE_APP); check_get_passwd("u1_a1234", 111234, TYPE_APP); check_get_passwd("u1_a9999", 119999, TYPE_APP); check_get_passwd("u1_i1", 190001, TYPE_APP); check_get_passwd("u1_i4545", 194545, TYPE_APP); check_get_passwd("u1_i9999", 199999, TYPE_APP); } TEST(pwd, getpwnam_app_id_u31_ids) { check_get_passwd("u31_system", 3101000, TYPE_SYSTEM); check_get_passwd("u31_radio", 3101001, TYPE_SYSTEM); check_get_passwd("u31_a0", 3110000, TYPE_APP); check_get_passwd("u31_a1234", 3111234, TYPE_APP); check_get_passwd("u31_a9999", 3119999, TYPE_APP); check_get_passwd("u31_i1", 3190001, TYPE_APP); check_get_passwd("u31_i4545", 3194545, TYPE_APP); check_get_passwd("u31_i9999", 3199999, TYPE_APP); } TEST(pwd, getpwnam_app_id_not_allowed_platform) { expect_no_passwd_name("u1_root"); expect_no_passwd_name("u1_debuggerd"); expect_no_passwd_name("u31_root"); expect_no_passwd_name("u31_debuggerd"); } TEST(pwd, getpwuid_app_id_u1_non_exist) { expect_no_passwd_id(100000); // There is no 'root' for secondary users. expect_no_passwd_id(101999); // End of the system reserved range, unallocated. expect_no_passwd_id(102900); // The OEM ranges were never allocated to secondary users. expect_no_passwd_id(105000); // The OEM ranges were never allocated to secondary users. // These ranges are for GIDs only. expect_no_passwd_id(120000); expect_no_passwd_id(130000); expect_no_passwd_id(140000); expect_no_passwd_id(150000); } TEST(pwd, getpwuid_app_id_u31_non_exist) { expect_no_passwd_id(3100000); // There is no 'root' for secondary users. expect_no_passwd_id(3101999); // End of the system reserved range, unallocated. expect_no_passwd_id(3102900); // The OEM ranges were never allocated to secondary users. expect_no_passwd_id(3105000); // The OEM ranges were never allocated to secondary users. // These ranges are for GIDs only. expect_no_passwd_id(3120000); expect_no_passwd_id(3130000); expect_no_passwd_id(3140000); expect_no_passwd_id(3150000); } TEST(pwd, getpwnam_r_alignment) { #if defined(__BIONIC__) passwd pwd_storage; alignas(16) char buf[512]; passwd* pwd; int result = getpwnam_r("root", &pwd_storage, buf + 1, sizeof(buf) - 1, &pwd); ASSERT_EQ(0, result); check_passwd(pwd, "root", 0, TYPE_SYSTEM, true); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(pwd, getpwuid_r_alignment) { #if defined(__BIONIC__) passwd pwd_storage; alignas(16) char buf[512]; passwd* pwd; int result = getpwuid_r(0, &pwd_storage, buf + 1, sizeof(buf) - 1, &pwd); ASSERT_EQ(0, result); check_passwd(pwd, "root", 0, TYPE_SYSTEM, true); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(pwd, getpwnam_r_reentrancy) { #if defined(__BIONIC__) passwd pwd_storage[2]; char buf[2][512]; passwd* pwd[3]; int result = getpwnam_r("root", &pwd_storage[0], buf[0], sizeof(buf[0]), &pwd[0]); ASSERT_EQ(0, result); check_passwd(pwd[0], "root", 0, TYPE_SYSTEM, true); pwd[1] = getpwnam("system"); ASSERT_NE(nullptr, pwd[1]); check_passwd(pwd[1], "system", 1000, TYPE_SYSTEM, true); result = getpwnam_r("radio", &pwd_storage[1], buf[1], sizeof(buf[1]), &pwd[2]); ASSERT_EQ(0, result); check_passwd(pwd[2], "radio", 1001, TYPE_SYSTEM, true); check_passwd(pwd[0], "root", 0, TYPE_SYSTEM, true); check_passwd(pwd[1], "system", 1000, TYPE_SYSTEM, true); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(pwd, getpwuid_r_reentrancy) { #if defined(__BIONIC__) passwd pwd_storage[2]; char buf[2][512]; passwd* pwd[3]; int result = getpwuid_r(0, &pwd_storage[0], buf[0], sizeof(buf[0]), &pwd[0]); ASSERT_EQ(0, result); check_passwd(pwd[0], "root", 0, TYPE_SYSTEM, true); pwd[1] = getpwuid(1000); ASSERT_NE(nullptr, pwd[1]); check_passwd(pwd[1], "system", 1000, TYPE_SYSTEM, true); result = getpwuid_r(1001, &pwd_storage[1], buf[1], sizeof(buf[1]), &pwd[2]); ASSERT_EQ(0, result); check_passwd(pwd[2], "radio", 1001, TYPE_SYSTEM, true); check_passwd(pwd[0], "root", 0, TYPE_SYSTEM, true); check_passwd(pwd[1], "system", 1000, TYPE_SYSTEM, true); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(pwd, getpwnam_r_large_enough_suggested_buffer_size) { #if defined(__BIONIC__) long size = sysconf(_SC_GETPW_R_SIZE_MAX); ASSERT_GT(size, 0); char buf[size]; passwd pwd_storage; passwd* pwd; ASSERT_EQ(0, getpwnam_r("root", &pwd_storage, buf, size, &pwd)); check_passwd(pwd, "root", 0, TYPE_SYSTEM, true); #else GTEST_SKIP() << "bionic-only test"; #endif } #if defined(__BIONIC__) template static void expect_ids(T ids, bool is_group) { std::set expected_ids; // Ensure that all android_ids are iterated through. for (size_t n = 0; n < android_id_count; ++n) { EXPECT_EQ(1U, ids.count(android_ids[n].aid)) << "android_ids[n].aid: " << android_ids[n].aid; expected_ids.emplace(android_ids[n].aid); } auto expect_range = [&ids, &expected_ids](uid_t start, uid_t end) { for (size_t n = start; n <= end; ++n) { EXPECT_EQ(1U, ids.count(n)) << "n: " << n; expected_ids.emplace(n); } }; // Ensure that all reserved ranges are iterated through. expect_range(AID_OEM_RESERVED_START, AID_OEM_RESERVED_END); expect_range(AID_OEM_RESERVED_2_START, AID_OEM_RESERVED_2_END); expect_range(AID_APP_START, AID_APP_END); if (is_group) { expect_range(AID_CACHE_GID_START, AID_CACHE_GID_END); expect_range(AID_EXT_GID_START, AID_EXT_GID_END); expect_range(AID_EXT_CACHE_GID_START, AID_EXT_CACHE_GID_END); expect_range(AID_SHARED_GID_START, AID_SHARED_GID_END); } expect_range(AID_ISOLATED_START, AID_ISOLATED_END); // Prior to R, we didn't have a mechanism to create vendor AIDs in the system or other non-vendor // partitions, therefore we disabled the rest of these checks for older API levels. if (android::base::GetIntProperty("ro.product.first_api_level", 0) <= 29) { return; } auto allow_range = [&ids](uid_t start, uid_t end) { for (size_t n = start; n <= end; ++n) { ids.erase(n); } }; allow_range(AID_SYSTEM_RESERVED_START, AID_SYSTEM_EXT_RESERVED_END); // Ensure that no other ids were returned. auto return_differences = [&ids, &expected_ids] { std::vector missing_from_ids; std::set_difference(expected_ids.begin(), expected_ids.end(), ids.begin(), ids.end(), std::inserter(missing_from_ids, missing_from_ids.begin())); std::vector extra_in_ids; std::set_difference(ids.begin(), ids.end(), expected_ids.begin(), expected_ids.end(), std::inserter(extra_in_ids, extra_in_ids.begin())); std::string result; if (!missing_from_ids.empty()) { result += "Missing ids from results: " + Join(missing_from_ids, " "); } if (!extra_in_ids.empty()) { if (!result.empty()) result += ", "; result += "Extra ids in results: " + Join(extra_in_ids, " "); } return result; }; // AID_PRNG_SEEDER (1092) was added in TM-QPR2, but CTS is shared // across Android 13 versions so we may or may not find it in this // test (b/253185870). if (android::base::GetIntProperty("ro.build.version.sdk", 0) == __ANDROID_API_T__) { #ifndef AID_PRNG_SEEDER #define AID_PRNG_SEEDER 1092 #endif ids.erase(AID_PRNG_SEEDER); expected_ids.erase(AID_PRNG_SEEDER); } EXPECT_EQ(expected_ids, ids) << return_differences(); } #endif TEST(pwd, getpwent_iterate) { #if defined(__BIONIC__) passwd* pwd; std::set uids; setpwent(); while ((pwd = getpwent()) != nullptr) { ASSERT_TRUE(nullptr != pwd->pw_name); EXPECT_EQ(pwd->pw_gid, pwd->pw_uid) << "pwd->pw_uid: " << pwd->pw_uid; EXPECT_EQ(nullptr, pwd->pw_passwd) << "pwd->pw_uid: " << pwd->pw_uid; #ifdef __LP64__ EXPECT_TRUE(nullptr == pwd->pw_gecos) << "pwd->pw_uid: " << pwd->pw_uid; #endif EXPECT_TRUE(nullptr != pwd->pw_shell); if (pwd->pw_uid < AID_APP_START || pwd->pw_uid == AID_OVERFLOWUID) { EXPECT_STREQ("/", pwd->pw_dir) << "pwd->pw_uid: " << pwd->pw_uid; } else { EXPECT_STREQ("/data", pwd->pw_dir) << "pwd->pw_uid: " << pwd->pw_uid; } EXPECT_EQ(0U, uids.count(pwd->pw_uid)) << "pwd->pw_uid: " << pwd->pw_uid; uids.emplace(pwd->pw_uid); } endpwent(); expect_ids(uids, false); #else GTEST_SKIP() << "bionic-only test"; #endif } static void check_group(const group* grp, const char* group_name, gid_t gid, bool check_groupname = true) { ASSERT_TRUE(grp != nullptr); if (check_groupname) { EXPECT_STREQ(group_name, grp->gr_name); } EXPECT_EQ(gid, grp->gr_gid); ASSERT_TRUE(grp->gr_mem != nullptr); if (check_groupname) { EXPECT_STREQ(group_name, grp->gr_mem[0]); } EXPECT_TRUE(grp->gr_mem[1] == nullptr); } #if defined(__BIONIC__) static void check_getgrgid(const char* group_name, gid_t gid, bool check_groupname) { errno = 0; group* grp = getgrgid(gid); ASSERT_EQ(0, errno); SCOPED_TRACE("getgrgid"); check_group(grp, group_name, gid, check_groupname); } static void check_getgrnam(const char* group_name, gid_t gid, bool check_groupname) { errno = 0; group* grp = getgrnam(group_name); ASSERT_EQ(0, errno); SCOPED_TRACE("getgrnam"); check_group(grp, group_name, gid, check_groupname); } static void check_getgrgid_r(const char* group_name, gid_t gid, bool check_groupname) { group grp_storage; char buf[512]; group* grp; errno = 0; int result = getgrgid_r(gid, &grp_storage, buf, sizeof(buf), &grp); ASSERT_EQ(0, result); ASSERT_EQ(0, errno); SCOPED_TRACE("getgrgid_r"); check_group(grp, group_name, gid, check_groupname); } static void check_getgrnam_r(const char* group_name, gid_t gid, bool check_groupname) { group grp_storage; char buf[512]; group* grp; errno = 0; int result = getgrnam_r(group_name, &grp_storage, buf, sizeof(buf), &grp); ASSERT_EQ(0, result); ASSERT_EQ(0, errno); SCOPED_TRACE("getgrnam_r"); check_group(grp, group_name, gid, check_groupname); } static void check_get_group(const char* group_name, gid_t gid, bool check_groupname = true) { SCOPED_TRACE("groupname '"s + group_name + "'"); check_getgrgid(group_name, gid, check_groupname); check_getgrnam(group_name, gid, check_groupname); check_getgrgid_r(group_name, gid, check_groupname); check_getgrnam_r(group_name, gid, check_groupname); } static void expect_no_group_id(gid_t gid) { SCOPED_TRACE("gid '" + std::to_string(gid) + "'"); errno = 0; group* group = nullptr; group = getgrgid(gid); EXPECT_EQ(nullptr, group) << "name = '" << group->gr_name << "'"; EXPECT_EQ(ENOENT, errno); struct group group_storage; char buf[512]; EXPECT_EQ(ENOENT, getgrgid_r(gid, &group_storage, buf, sizeof(buf), &group)); EXPECT_EQ(nullptr, group) << "name = '" << group->gr_name << "'"; } static void expect_no_group_name(const char* groupname) { SCOPED_TRACE("groupname '"s + groupname + "'"); errno = 0; group* group = nullptr; group = getgrnam(groupname); EXPECT_EQ(nullptr, group) << "name = '" << group->gr_name << "'"; EXPECT_EQ(ENOENT, errno); struct group group_storage; char buf[512]; EXPECT_EQ(ENOENT, getgrnam_r(groupname, &group_storage, buf, sizeof(buf), &group)); EXPECT_EQ(nullptr, group) << "name = '" << group->gr_name << "'"; } #else // !defined(__BIONIC__) static void check_get_group(const char*, gid_t, bool) { GTEST_SKIP() << "bionic-only test"; } static void check_get_group(const char*, gid_t) { GTEST_SKIP() << "bionic-only test"; } static void expect_no_group_id(gid_t /* gid */) { GTEST_SKIP() << "bionic-only test"; } static void expect_no_group_name(const char* /* groupname */) { GTEST_SKIP() << "bionic-only test"; } #endif TEST(grp, getgrnam_platform_ids) { check_get_group("root", 0); check_get_group("daemon", 1); check_get_group("bin", 2); check_get_group("system", 1000); check_get_group("radio", 1001); check_get_group("shell", 2000); check_get_group("nobody", 9999); } TEST(grp, getgrnam_oem_ids) { check_get_group("oem_2900", 2900, false); check_get_group("oem_2945", 2945, false); check_get_group("oem_2999", 2999, false); check_get_group("oem_5000", 5000, false); check_get_group("oem_5454", 5454, false); check_get_group("oem_5999", 5999, false); } TEST(grp, getgrnam_non_exist) { expect_no_passwd_id(999); // End of the system reserved range, unallocated. expect_no_passwd_id(1999); // End of the system reserved range, unallocated. expect_no_passwd_id(2899); // End of the system reserved range, unallocated. } TEST(grp, getgrnam_u0_app_ids) { check_get_group("u0_a0", 10000); check_get_group("u0_a1234", 11234); check_get_group("u0_a9999", 19999); check_get_group("u0_a0_cache", 20000); check_get_group("u0_a1234_cache", 21234); check_get_group("u0_a9999_cache", 29999); check_get_group("u0_a0_ext", 30000); check_get_group("u0_a4545_ext", 34545); check_get_group("u0_a9999_ext", 39999); check_get_group("u0_a0_ext_cache", 40000); check_get_group("u0_a4545_ext_cache", 44545); check_get_group("u0_a9999_ext_cache", 49999); check_get_group("all_a0", 50000); check_get_group("all_a4545", 54545); check_get_group("all_a9999", 59999); check_get_group("u0_i1", 90001); } TEST(grp, getgrnam_u1_app_ids) { check_get_group("u1_system", 101000); check_get_group("u1_radio", 101001); check_get_group("u1_a0", 110000); check_get_group("u1_a1234", 111234); check_get_group("u1_a9999", 119999); check_get_group("u1_a0_cache", 120000); check_get_group("u1_a1234_cache", 121234); check_get_group("u1_a9999_cache", 129999); check_get_group("u1_a0_ext", 130000); check_get_group("u1_a4545_ext", 134545); check_get_group("u1_a9999_ext", 139999); check_get_group("u1_a0_ext_cache", 140000); check_get_group("u1_a4545_ext_cache", 144545); check_get_group("u1_a9999_ext_cache", 149999); check_get_group("u1_i1", 190001); } TEST(grp, getgrnam_u31_app_ids) { check_get_group("u31_system", 3101000); check_get_group("u31_radio", 3101001); check_get_group("u31_a0", 3110000); check_get_group("u31_a1234", 3111234); check_get_group("u31_a9999", 3119999); check_get_group("u31_a0_cache", 3120000); check_get_group("u31_a1234_cache", 3121234); check_get_group("u31_a9999_cache", 3129999); check_get_group("u31_a0_cache", 3120000); check_get_group("u31_a1234_cache", 3121234); check_get_group("u31_a9999_cache", 3129999); check_get_group("u31_a0_ext", 3130000); check_get_group("u31_a4545_ext", 3134545); check_get_group("u31_a9999_ext", 3139999); check_get_group("u31_a0_ext_cache", 3140000); check_get_group("u31_a4545_ext_cache", 3144545); check_get_group("u31_a9999_ext_cache", 3149999); check_get_group("u31_i1", 3190001); } TEST(grp, getpgram_app_id_not_allowed_platform) { expect_no_group_name("u1_root"); expect_no_group_name("u1_debuggerd"); expect_no_group_name("u31_root"); expect_no_group_name("u31_debuggerd"); } TEST(grp, getgrgid_app_id_u1_non_exist) { expect_no_group_id(100000); // There is no 'root' for secondary users. expect_no_group_id(101999); // End of the system reserved range, unallocated. expect_no_group_id(102900); // The OEM ranges were never allocated to secondary users. expect_no_group_id(105000); // The OEM ranges were never allocated to secondary users. // The shared range is shared among users, and therefore doesn't exist for secondary users. expect_no_group_id(150000); } TEST(grp, getgrgid_app_id_u31_non_exist) { expect_no_group_id(3100000); // There is no 'root' for secondary users. expect_no_group_id(3101999); // End of the system reserved range, unallocated. expect_no_group_id(3102900); // The OEM ranges were never allocated to secondary users. expect_no_group_id(3105000); // The OEM ranges were never allocated to secondary users. // The shared range is shared among users, and therefore doesn't exist for secondary users. expect_no_group_id(3150000); } TEST(grp, getgrnam_r_alignment) { #if defined(__BIONIC__) group grp_storage; alignas(16) char buf[512]; group* grp; int result = getgrnam_r("root", &grp_storage, buf + 1, sizeof(buf) - 1, &grp); ASSERT_EQ(0, result); check_group(grp, "root", 0); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(grp, getgrgid_r_alignment) { #if defined(__BIONIC__) group grp_storage; alignas(16) char buf[512]; group* grp; int result = getgrgid_r(0, &grp_storage, buf + 1, sizeof(buf) - 1, &grp); ASSERT_EQ(0, result); check_group(grp, "root", 0); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(grp, getgrnam_r_reentrancy) { #if defined(__BIONIC__) group grp_storage[2]; char buf[2][512]; group* grp[3]; int result = getgrnam_r("root", &grp_storage[0], buf[0], sizeof(buf[0]), &grp[0]); ASSERT_EQ(0, result); check_group(grp[0], "root", 0); grp[1] = getgrnam("system"); check_group(grp[1], "system", 1000); result = getgrnam_r("radio", &grp_storage[1], buf[1], sizeof(buf[1]), &grp[2]); ASSERT_EQ(0, result); check_group(grp[2], "radio", 1001); check_group(grp[0], "root", 0); check_group(grp[1], "system", 1000); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(grp, getgrgid_r_reentrancy) { #if defined(__BIONIC__) group grp_storage[2]; char buf[2][512]; group* grp[3]; int result = getgrgid_r(0, &grp_storage[0], buf[0], sizeof(buf[0]), &grp[0]); ASSERT_EQ(0, result); check_group(grp[0], "root", 0); grp[1] = getgrgid(1000); check_group(grp[1], "system", 1000); result = getgrgid_r(1001, &grp_storage[1], buf[1], sizeof(buf[1]), &grp[2]); ASSERT_EQ(0, result); check_group(grp[2], "radio", 1001); check_group(grp[0], "root", 0); check_group(grp[1], "system", 1000); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(grp, getgrnam_r_large_enough_suggested_buffer_size) { long size = sysconf(_SC_GETGR_R_SIZE_MAX); ASSERT_GT(size, 0); char buf[size]; group grp_storage; group* grp; ASSERT_EQ(0, getgrnam_r("root", &grp_storage, buf, size, &grp)); check_group(grp, "root", 0); } TEST(grp, getgrent_iterate) { #if defined(__BIONIC__) group* grp; std::set gids; setgrent(); while ((grp = getgrent()) != nullptr) { ASSERT_TRUE(grp->gr_name != nullptr) << "grp->gr_gid: " << grp->gr_gid; ASSERT_TRUE(grp->gr_mem != nullptr) << "grp->gr_gid: " << grp->gr_gid; EXPECT_STREQ(grp->gr_name, grp->gr_mem[0]) << "grp->gr_gid: " << grp->gr_gid; EXPECT_TRUE(grp->gr_mem[1] == nullptr) << "grp->gr_gid: " << grp->gr_gid; EXPECT_EQ(0U, gids.count(grp->gr_gid)) << "grp->gr_gid: " << grp->gr_gid; gids.emplace(grp->gr_gid); } endgrent(); expect_ids(gids, true); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(grp, getgrouplist) { #if defined(__BIONIC__) // Query the number of groups. int ngroups = 0; ASSERT_EQ(-1, getgrouplist("root", 123, nullptr, &ngroups)); ASSERT_EQ(1, ngroups); // Query the specific groups (just the one you pass in on Android). ngroups = 8; gid_t groups[ngroups]; ASSERT_EQ(1, getgrouplist("root", 123, groups, &ngroups)); ASSERT_EQ(1, ngroups); ASSERT_EQ(123u, groups[0]); #else GTEST_SKIP() << "bionic-only test (groups too unpredictable)"; #endif } #if defined(__BIONIC__) static void TestAidNamePrefix(const std::string& file_path) { std::string file_contents; if (!ReadFileToString(file_path, &file_contents)) { // If we cannot read this file, then there are no vendor defind AID names, in which case this // test passes by default. return; } auto lines = Split(file_contents, "\n"); for (const auto& line : lines) { if (line.empty()) continue; auto name = Split(line, ":")[0]; EXPECT_TRUE(StartsWith(name, "vendor_")); } } #endif TEST(pwd, vendor_prefix_users) { #if defined(__BIONIC__) if (android::base::GetIntProperty("ro.product.first_api_level", 0) <= 28) { return; } TestAidNamePrefix("/vendor/etc/passwd"); #else GTEST_SKIP() << "bionic-only test"; #endif } TEST(pwd, vendor_prefix_groups) { #if defined(__BIONIC__) if (android::base::GetIntProperty("ro.product.first_api_level", 0) <= 28) { return; } TestAidNamePrefix("/vendor/etc/group"); #else GTEST_SKIP() << "bionic-only test"; #endif }